铁磁性
凝聚态物理
自旋电子学
矫顽力
霍尔效应
材料科学
磁化
兴奋剂
磁矩
自旋霍尔效应
磁场
费米能级
铁磁性
物理
自旋极化
电子
量子力学
作者
Jonathan M. DeStefano,Elliott Rosenberg,Guodong Ren,Yongbin Lee,Zhenhua Ning,Olivia Peek,K. J. Harrison,Saiful I. Khondaker,Liqin Ke,I. I. Mazin,Juan Carlos Idrobo,Jiun‐Haw Chu
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2025-08-29
卷期号:11 (35): eadx4671-eadx4671
被引量:2
标识
DOI:10.1126/sciadv.adx4671
摘要
Ferrimagnets that can be driven to magnetic compensation show promise for use in spintronics as they exhibit a finite anomalous Hall effect at zero magnetic field without having a substantial magnetic moment. Compensated ferrimagnet spintronic devices with both a large anomalous Hall effect and a high coercivity would be simultaneously easy to read and difficult to erase. The kagome ferrimagnet TbMn 6 Sn 6 has been reported to host a large intrinsic anomalous Hall effect. Here, we demonstrate that doping the Mn sites with Cr drives the system toward magnetic compensation. For nearly compensated compositions at low temperatures, giant coercive fields exceeding 14 T are observed. Additionally, Cr doping markedly enhances the intrinsic anomalous Hall effect, which can be attributed to a shift in the Fermi level. Our results extend the range of unique magnetic states observed in kagome materials, demonstrating that chemical doping is an effective strategy to tune and realize these states.
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